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NAME

       ion - Interplanetary Overlay Network common definitions and functions

SYNOPSIS

           #include "ion.h"

           [see description for available functions]

DESCRIPTION

       The Interplanetary Overlay Network (ION) software distribution is an implementation of
       Delay-Tolerant Networking (DTN) architecture as described in Internet RFC 4838.  It is
       designed to enable inexpensive insertion of DTN functionality into embedded systems such
       as robotic spacecraft.  The intent of ION deployment in space flight mission systems is to
       reduce cost and risk in mission communications by simplifying the construction and
       operation of automated digital data communication networks spanning space links, planetary
       surface links, and terrestrial links.

       The ION distribution comprises the following software packages:

           ici (Interplanetary Communication Infrastructure), a set of general-purpose libraries
           providing common functionality to the other packages.

           ltp (Licklider Transmission Protocol), a core DTN protocol that provides transmission
           reliability based on delay-tolerant acknowledgments, timeouts, and retransmissions.

           bp (Bundle Protocol), a core DTN protocol that provides delay-tolerant forwarding of
           data through a network in which continuous end-to-end connectivity is never assured,
           including support for delay-tolerant dynamic routing.  The Bundle Protocol (BP)
           specification is defined in Internet RFC 5050.

           dgr (Datagram Retransmission), a library that enables data to be transmitted via UDP
           with reliability comparable to that provided by TCP.  DGR is an alternative
           implementation of LTP, designed for use within an internet.

           ams (Asynchronous Message Service), cfdp (CCSDS File Delivery Protocol), and bss
           (Bundle Streaming Service), application-layer services that are not part of the DTN
           architecture but utilize underlying DTN protocols.

       Taken together, the packages included in the ION software distribution constitute a
       communication capability characterized by the following operational features:

           Reliable conveyance of data over a DTN, i.e., a network in which it might never be
           possible for any node to have reliable information about the detailed current state of
           any other node.

           Built on this capability, reliable distribution of short messages to multiple
           recipients (subscribers) residing in such a network.

           Management of traffic through such a network.

           Facilities for monitoring the performance of the network.

           Robustness against node failure.

           Portability across heterogeneous computing platforms.

           High speed with low overhead.

           Easy integration with heterogeneous underlying communication infrastructure, ranging
           from Internet to dedicated spacecraft communication links.

       While most of the ici package consists of libraries providing functionality that may be of
       general utility in any complex embedded software system, the functions and macros
       described below are specifically designed to support operations of ION's delay-tolerant
       networking protocol stack.

       TIMESTAMPBUFSZ
           This macro returns the recommended size of a buffer that is intended to contain a
           timestamp in ION-standard format:

               yyyy/mm/dd-hh:mm:ss

       int ionAttach()
           Attaches the invoking task to ION infrastructure as previously established by running
           the ionadmin utility program on the same computer.  Returns zero on success, -1 on any
           error.

       void ionDetach()
           Detaches the invoking task from ION infrastructure.  In particular, releases handle
           allocated for access to ION's non-volatile database.  NOTE, though, that ionDetach()
           has no effect when the invoking task is running in a non-memory-protected environment,
           such as VxWorks, where all ION resource access variables are shared by all tasks: no
           single task could detach without crashing all other ION tasks.

       void ionProd(uvast fromNode, uvast toNode, unsigned int xmitRate, unsigned int owlt)
           This function is designed to be called from an operating environment command or a
           fault protection routine, to enable operation of a node to resume when all of its
           scheduled contacts are in the past (making it impossible to use a DTN communication
           contact to assert additional future communication contacts).  The function asserts a
           single new unidirectional contact conforming to the arguments provided, including the
           applicable one-way light time, with start time equal to the current time (at the
           moment of execution of the function) and end time equal to the start time plus 2
           hours.  The result of executing the function is written to the ION log using standard
           ION status message logging functions.

           NOTE that the ionProd() function must be invoked twice in order to establish
           bidirectional communication.

       void ionClear(char *srcEid, char *destEid, char *blockType)
           This function is designed to be called from an operating environment command or a
           fault protection routine, to delete some or all of ION's Bundle Security Protocol
           rules when they are preventing nominal authorized operation of a node.  If the first
           character of blockType is '~' then the function applies to rules for all types of BSP
           block; otherwise it applies only to rules for the named BSP block type: "bab", "pib",
           "pcb", or "esb".  Only rules whose security source EIDs match srcEid and whose
           security destination EIDs match destEid are deleted.  A rule EID matches a "clearing"
           EID if (a) every character of the clearing EID prior to the first '~' in the clearing
           ID (if any) is equal to the corresponding character of the rule EID and either the
           first '~' character in the clearing EID is the clearing EID's last character or else
           the rule EID and clearing EID are of equal length.

       Object ionCreateZco(ZcoMedium source, Object location, vast offset, vast length, int
       *control)
           This function provides a "blocking" implementation of admission control in ION.  Like
           zco_create(), it constructs a zero-copy object (see zco(3)) that contains a single
           extent of source data residing at location in source, of which the first offset bytes
           are omitted and the next length bytes are included.  But unlike zco_create(),
           ionCreateZco() will block (rather than return an immediate error indication) so long
           as the total amount of space in source that is available for new ZCO formation is less
           than length.  ionCreateZco() returns when either (a) space has become available and
           the ZCO has been created, in which case the location of the ZCO is returned, or (b)
           the function has failed (in which case ((Object) -1) is returned), or (c) the function
           was interrupted by ionCancelZcoSpaceRequest() before space for the ZCO became
           available (in which case 0 is returned).

           ionCreateZco() is interruptible if and only if a non-NULL value of control is passed
           to it; in that case, passing the same value of control to the
           ionCancelZcoSpaceRequest() function will interrupt ionCreateZco().  Note that the
           integer variable referenced by control functions as a private ION work area; its
           content need not be initialized -- and must not be altered -- by the application.  Be
           careful when referencing a dynamic variable in control; static variables are safer.
           If control is NULL then ionCreateZco() is not interruptible by the application.

       vast ionAppendZcoExtent(Object zco, ZcoMedium source, Object location, vast offset, vast
       length, int *control)
           Similar to ionCreateZco() except that instead of creating a new ZCO it appends an
           additional extent to an existing ZCO. Returns -1 on failure, 0 on interruption by
           ionCancelZcoSpaceRequest(), length on success.

       void ionCancelZcoSpaceRequest(int *control)
           This function simply interrupts the currently blocked invocation of ionCreateZco() or
           ionAppendZcoExtent() that cites the same control value.  ionCancelZcoSpaceRequest() is
           intended to be called from a signal handler, so that a signal can be used to cleanly
           terminate a thread that is waiting for an opportunity to create a new ZCO source data
           extent.

       Sdr getIonsdr()
           Returns a pointer to the SDR management object, previously acquired by calling
           ionAttach(), or zero on any error.

       PsmPartition getIonwm()
           Returns a pointer to the ION working memory partition, previously acquired by calling
           ionAttach(), or zero on any error.

       int getIonMemoryMgr()
           Returns the memory manager ID for operations on ION's working memory partition,
           previously acquired by calling ionAttach(), or -1 on any error.

       int ionLocked();
           Returns 1 if the calling task is the owner of the current SDR transaction.  Assuring
           that ION is locked while related critical operations are performed is essential to the
           avoidance of race conditions.

       uvast getOwnNodeNbr()
           Returns the Bundle Protocol node number identifying this computer, as declared when
           ION was initialized by ionadmin.

       time_t getUTCTime()
           Returns the current UTC time, as computed from local clock time and the computer's
           current offset from UTC (due to clock drift, not due to time zone difference; the
           utcdelta) as managed from ionadmin.

       int ionClockIsSynchronized()
           Returns 1 if the computer on which the local ION node is running has a synchronized
           clock , i.e., a clock that reports the current UTC time as a value that differs from
           the correct time by an interval approximately equal to the currently asserted offset
           from UTC due to clock drift; returns zero otherwise.

           If the machine's clock is synchronized then its reported values (as returned by
           getUTCTime()) can safely be used as the creation times of new bundles and the
           expiration time of such a bundle can accurately be computed as the sum of the bundle's
           creation time and time to live.  If not, then the creation timestamp time of new
           bundles sourced at the local ION node must be zero and the creation timestamp sequence
           numbers must increase monotonically forever, never rolling over to zero.

       void writeTimestampLocal(time_t timestamp, char *timestampBuffer)
           Expresses the time value in timestamp as a local timestamp string in ION-standard
           format, as noted above, in timestampBuffer.

       void writeTimestampUTC(time_t timestamp, char *timestampBuffer)
           Expresses the time value in timestamp as a UTC timestamp string in ION-standard
           format, as noted above, in timestampBuffer.

       time_t readTimestampLocal(char *timestampBuffer, time_t referenceTime)
           Parses the local timestamp string in timestampBuffer and returns the corresponding
           time value (as would be returned by time(2)), or zero if the timestamp string cannot
           be parsed successfully.  The timestamp string is normally expected to be an absolute
           expression of local time in ION-standard format as noted above.  However, a relative
           time expression variant is also supported: if the first character of timestampBuffer
           is '+' then the remainder of the string is interpreted as a count of seconds; the sum
           of this value and the time value in referenceTime is returned.

       time_t readTimestampUTC(char *timestampBuffer, time_t referenceTime)
           Same as readTimestampLocal() except that if timestampBuffer is not a relative time
           expression then it is interpreted as an absolute expression of UTC time in ION-
           standard format as noted above.

STATUS MESSAGES

       ION uses writeMemo(), putErrmsg(), and putSysErrmsg() to log several different types of
       standardized status messages.

       Informational messages
           These messages are generated to inform the user of the occurrence of events that are
           nominal but significant, such as the controlled termination of a daemon or the
           production of a congestion forecast.  Each informational message has the following
           format:

               {yyyy/mm/dd hh:mm:ss} [i] text

       Warning messages
           These messages are generated to inform the user of the occurrence of events that are
           off-nominal but are likely caused by configuration or operational errors rather than
           software failure.  Each warning message has the following format:

               {yyyy/mm/dd hh:mm:ss} [?] text

       Diagnostic messages
           These messages are produced by calling putErrmsg() or putSysErrmsg().  They are
           generated to inform the user of the occurrence of events that are off-nominal and
           might be due to errors in software.  The location within the ION software at which the
           off-nominal condition was detected is indicated in the message:

               {yyyy/mm/dd hh:mm:ss} at line nnn of sourcefilename, text (argument)

           Note that the argument portion of the message (including its enclosing parentheses)
           will be provided only when an argument value seems potentially helpful in fault
           analysis.

       Bundle Status Report (BSR) messages
           A BSR message informs the user of the arrival of a BSR, a Bundle Protocol report on
           the status of some bundle.  BSRs are issued in the course of processing bundles for
           which one or more status report request flags are set, and they are also issued when
           bundles for which custody transfer is requested are destroyed prior to delivery to
           their destination endpoints.  A BSR message is generated by ipnadminep upon reception
           of a BSR.  The time and place (node) at which the BSR was issued are indicated in the
           message:

               {yyyy/mm/dd hh:mm:ss} [s] (sourceEID)/creationTimeSeconds:counter/fragmentOffset
               status flagsByte at time on endpointID, 'reasonString'.

       Communication statistics messages
           A network performance report is a set of eight communication statistics messages, one
           for each of eight different types of network activity.  A report is issued every time
           contact transmission or reception starts or stops, except when there is no activity of
           any kind on the local node since the prior report.  When a report is issued, statistic
           messages are generated to summarize all network activity detected since the prior
           report, after which all network activity counters and accumulators are reset to zero.

           NOTE also that the bpstats utility program can be invoked to issue an interim network
           performance report at any time.  Issuance of interim status reports does not cause
           network activity counters and accumulators to be reset to zero.

           Statistics messages have the following format:

               {yyyy/mm/dd hh:mm:ss} [x] xxx from tttttttt to TTTTTTTT: (0) aaaa bbbbbbbbbb (1)
               cccc dddddddddd (2) eeee ffffffffff (+) gggg hhhhhhhhhh

           xxx indicates the type of network activity that the message is reporting on.
           Statistics for eight different types of network activity are reported:

           src This message reports on the bundles sourced at the local node during the indicated
               interval.

           fwd This message reports on the bundles forwarded by the local node.  When a bundle is
               re-forwarded due to custody transfer timeout it is counted a second time here.

           xmt This message reports on the bundles passed to the convergence layer protocol(s)
               for transmission from this node.  Again, a re-forwarded bundle that is then re-
               transmitted at the convergence layer is counted a second time here.

           rcv This message reports on the bundles from other nodes that were received at the
               local node.

           dlv This message reports on the bundles delivered to applications via endpoints on the
               local node.

           ctr This message reports on the custody refusal signals received at the local node.

           rfw This message reports on bundles for which convergence-layer transmission failed at
               this node, causing the bundles to be re-forwarded.

           exp This message reports on the bundles destroyed at this node due to TTL expiration.

           tttttttt and TTTTTTTT indicate the start and end times of the interval for which
           statistics are being reported, expressed in yyyy/mm/dd-hh:mm:ss format.  TTTTTTTT is
           the current time and tttttttt is the time of the prior report.

           Each of the four value pairs following the colon (:) reports on the number of bundles
           counted for the indicated type of network activity, for the indicated traffic flow,
           followed by the sum of the sizes of the payloads of all those bundles.  The four
           traffic flows for which statistics are reported are "(0)" the priority-0 or "bulk"
           traffic, "(1)" the priority-1 "standard" traffic, "(2)" the priority-2 "expedited"
           traffic, and "(+)" the total for all classes of service.

       Free-form messages
           Other status messages are free-form, except that date and time are always noted just
           as for the documented status message types.

SEE ALSO

       ionadmin(1), rfxclock(1), bpstats(1), llcv(3), lyst(3), memmgr(3), platform(3), psm(3),
       sdr(3), zco(3), ltp(3), bp(3), cfdp(3), ams(3), bss(3)